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EUROPEAN COMMISSION
Integrated Pollution Prevention and Control (IPPC)
Reference Document on
Best Available Techniques in the Pulp and Paper Industry
December 2001
Executive Summary
Pulp and Paper Industry i
EXECUTIVE SUMMARY
This Reference Document on best available techniques in the pulp and paper industry reflects
the information exchange carried out according to Article 16(2) of Council Directive 96/61/EC.
The document has to be seen in the light of the preface, which describes the objectives of the
document and its use.
Paper is essentially a sheet of fibres with a number of added chemicals that affect the properties
and quality of the sheet. Besides fibres and chemicals, manufacturing of pulp and paper requires
a large amount of process water and energy in the form of steam and electric power.
Consequently, the main environmental issues associated with pulp and paper production are
emissions to water, emissions to air, and energy consumption. Waste is expected to become a
gradually increasing environmental issue of concern.
Pulp for papermaking may be produced from virgin fibre by chemical or mechanical means or
may be produced by the re-pulping of recovered paper. A paper mill may simply reconstitute
pulp made elsewhere or may be integrated with the pulping operations on the same site.
This document covers the relevant environmental aspects of pulp and papermaking from various
fibrous materials in integrated and non-integrated pulp and paper mills. Non-integrated pulp
mills (market pulp) are only manufacturing pulp that is then sold on the open market. Non-
integrated paper mills are using purchased pulp for their paper production. In integrated pulp
and paper mills the activities of pulp and papermaking are undertaken on the same site. Kraft
pulp mills are operating in both non-integrated and integrated manner whereas sulphite pulp
mills are normally integrated with paper production. Mechanical pulping and recycled fibre
processing is usually an integrated part of papermaking but has become a stand-alone activity in
a few single cases.
Neither environmentally relevant upstream processes like forestry management, production of
process chemicals off-site and transport of raw materials to the mill nor downstream activities
like paper converting or printing are included in this document. Environmental aspects which do
not specifically relate to pulp and paper production such as storage and handling of chemicals,
occupational safety and hazard risk, heat and power plants, cooling and vacuum systems and
raw water treatment are not or only briefly treated.
This BREF consists of an introductory section (general information, Chapter 1) and five major
parts:
• the kraft pulping process (Chapter 2),
• the sulphite pulping process (Chapter 3),
• mechanical pulping and chemi-mechanical pulping (Chapter 4),
• recycled fibre processing (Chapter 5), and
• papermaking and related processes (Chapter 6).
Each of these chapters has five main sections according to the general outline of IPPC BAT
Reference Documents. For most readers it will not be necessary to read the whole document but
only those chapters or sections that are of interest for the mill in question. For example, market
kraft pulp mills are only concerned by Chapter 2; integrated kraft pulp and paper mills are
concerned by Chapter 2 and 6, relevant information on integrated recycled paper processing
mills can be found in Chapter 5 and 6.
At the end of the document there is a list of references and a glossary of terms and abbreviations
that facilitates understanding.
Executive Summary
ii Pulp and Paper Industry
The general information (Chapter 1) include statistical data about paper consumption in Europe,
the geographical distribution for pulp and paper production across Europe, some economic
aspects, a rough overview about pulp and paper production and major environmental issues, and
a classification of pulp and paper mills in Europe. The chapter on general information closes
with some general remarks on the determination of BAT for the sector that is characterised by a
high diversity of products and (combinations of) processes involved and a high degree of
process-integrated technical solutions.
For each of the major 5 chapters information on the following aspects are presented: applied
processes and techniques; major environmental concerns such as resource and energy demand,
emissions and waste; description of relevant techniques for emission abatement, waste
minimisation and energy savings; identification of best available techniques; and emerging
techniques.
As for the reported emission and consumption figures, it should be borne in mind that, due to
the use of some different measurement methods in the various Member States, data are not
always strictly comparable from country to country. (See Annex III for more information on this
issue but the different methods used do not alter the conclusions drawn in this document).
The discussion of the techniques to consider in determination of BAT all follow the same
structure and cover a short description of the technique, main achieved environmental
performance, applicability, cross-media-effects, operational experiences, economics, driving
forces for implementing this technique, example plants and reference literature. The section on
Best Available Techniques includes ranges of emission and consumption levels that are
associated with the use of BAT. The conclusions on BAT are based on experiences from real
world examples and the expert judgement of the TWG.
Pulp and papermaking is a complex area that consists of quite many process stages and different
products. However, the wide range of raw materials used, processes involved in pulp and
papermaking can be broken down into a number of unit operations for the sake of discussion. In
this document, environmental concerns and relevant techniques for prevention and reduction of
emissions/waste and reducing consumption of energy and raw materials are described separately
for five major classes (Chapter 2 to 6). Where appropriate and considered as necessary, these
main classes are further sub-divided in sub-classes.
The document reflects at sector level the variety in terms of raw materials, energy sources,
products and processes in the European paper industry. However, in specific cases within each
main product category there is a certain range of raw materials and product specification that
differ from production of standard qualities and may have an impact on operational conditions
and the potential for improvement. This is especially true for special paper mills producing a
high number of different qualities in sequential manner on their machines or for paper mills
producing „special qualities“ of paper.
The exchange of information has allowed conclusions on BAT. The sections in each of the
Chapters that describe BAT should be referred to for a complete understanding of BAT and the
associated emissions. The key findings are summarized below.
General BAT for all processes
During the information exchange it emerged that the most effective measure for the reduction of
emissions/consumption and the improvement of economic performance is the implementation
of the best available process and abatement technologies in combination with the following: -
• Training, education and motivation of staff and operators;
• Process control optimisation;
Executive Summary
Pulp and Paper Industry iii
• Sufficient maintenance of the technical units and the associated abatement techniques;
• Environmental management system which optimises management, increases awareness and
includes goals and measures, process and job instructions etc.
BAT for Kraft pulp processing (Chapter 2)
The sulphate or kraft process is the dominating pulping process worldwide due to the superior
pulp strength properties and its application to all wood species. In kraft pulping the wastewater
effluents, the emissions to air including malodorous gases and the energy consumption are the
centres of interest. In some countries also waste is expected to become an environmental issue
of concern. The main raw materials are renewable resources (wood and water) and chemicals
for cooking and bleaching. Emissions to water are dominated by organic substances. Effluent
from bleach plant, where chlorine-containing bleaching chemicals are used, contains organically
bound chlorine compounds, measured as AOX. Some compounds discharged from mills show
toxic effects on aquatic organisms. Emissions of coloured substances may effect the living
species in the recipient negatively. Emissions of nutrients (nitrogen and phosphorus) can
contribute to eutrophication in the recipient. Metals extracted from the wood are discharged in
low concentrations but due to high flows the load can be of significance. A significant reduction
of both chlorinated and non-chlorinated organic substances in the effluent of pulp mills have
been achieved to a large extent by in-process measures.
Best available techniques for kraft pulp mills are considered to be
• Dry debarking of wood;
• Increased delignification before the bleach plant by extended or modified cooking and
additional oxygen stages;
• Highly efficient brown stock washing and closed cycle brown stock screening;
• Elemental chlorine free (ECF) bleaching with low AOX or Totally chlorine free (TCF)
bleaching;
• Recycling of some, mainly alkaline process water from the bleach plant;
• Effective spill monitoring, containment and recovery system;
• Stripping and reuse of the condensates from the evaporation plant;
• Sufficient capacity of the black liquor evaporation plant and the recovery boiler to cope
with the additional liquor and dry solids load;
• Collection and reuse of clean cooling waters;
• Provision of sufficiently large buffer tanks for storage of spilled cooking and recovery
liquors and dirty condensates to prevent sudden peaks of loading and occasional upsets in
the external effluent treatment plant;
• In addition to process-integrated measures, primary treatment and biological treatment is
considered BAT for kraft pulp mills.
For bleached and unbleached kraft pulp mills the BAT emission levels to water that are
associated with the use of a suitable combination of these techniques are the following:
Flow
m
3
/Adt
COD
kg/Adt
BOD
kg/Adt
TSS
kg/Adt
AOX
kg/Adt
Total N
kg/Adt
Total P
kg/Adt
Bleached pulp 30 - 50 8-23 0.3-1.5 0.6-1.5 < 0.25 0.1-0.25 0.01-0.03
Unbleached
pulp
15 - 25 5-10 0.2-0.7 0.3-1.0 - 0.1-0.2 0.01-0.02
These emission levels refer to yearly averages. The water flow is based on the assumption that
cooling water and other clean water are discharged separately. The values refer to the
contribution of pulping only. In integrated mills emissions from papermaking (see Chapter 6)
have to be added according to product mix manufactured.
Executive Summary
iv Pulp and Paper Industry
Off-gas emissions from different sources are considered as the other relevant environmental
issue. Emissions to the atmosphere originate from recovery boiler, lime kiln, bark furnace, chip
storage, cooking digester, pulp washing, bleaching plant, bleaching chemical preparation,
evaporation, screening, washing, white liquor preparation, and various tanks. A part of this is
the diffuse emissions that escape from various points of the process. The main point sources are
the recovery boiler, the lime kiln and auxiliary boilers. Emissions consist mainly of nitrogen
oxides, sulphur-containing compounds such as sulphur dioxide, and malodorous reduced
sulphur compounds. In addition there are emissions of particulates.
Best available techniques for reducing emissions to air are
• Collection and incineration of concentrated malodorous gases and control the resulting SO
2
emissions. The strong gases can be burnt in the recovery boiler, in the lime kiln or a
separate, low NO
x
furnace. The flue gases of the latter have a high concentration of SO
2
that
is recovered in a scrubber.
• Diluted malodorous gases from various sources are also collected and incinerated and the
resulting SO
2
controlled.
• TRS emissions of the recovery boiler are mitigated by efficient combustion control and CO
measurement;
• TRS emissions of the lime kiln are mitigated by controlling the excess oxygen, by using
low-S fuel, and by controlling the residual soluble sodium in the lime mud fed to the kiln.
• The SO
2
emissions from the recovery boilers are controlled by firing high dry solids
concentration black liquor in the recovery boiler and/or by using a flue gas scrubber;
• BAT is further the control of NO
x
emissions from the recovery boiler (i.e. ensuring proper
mixing and division of air in the boiler), lime kiln and from auxiliary boilers by controlling
the firing conditions, and for new or altered installations also by appropriate design;
• SO
2
emissions from auxiliary boilers are reduced by using bark, gas, low sulphur oil and
coal or controlling S emissions with a scrubber.
• Flue gases from recovery boilers, auxiliary boilers (in which other biofuels and/or fossil
fuels are incinerated) and lime kiln are cleaned with efficient electrostatic precipitators to
mitigate dust emissions.
For bleached and unbleached kraft pulp mills the BAT emission levels to air from the process
that are associated with a combination of these techniques are shown in the following table. The
emission levels refer to yearly averages and standard conditions. Emissions from auxiliary
boilers e.g. due to production of steam used for drying of pulp and/or paper are not included.
For emission levels from auxiliary boilers it is referred to the section BAT for auxiliary boilers
further below.
Dust
kg/Adt
SO
2
(as S)
kg/Adt
NOx (NO+NO
2
as NO
2
) in kg/Adt
TRS (as S)
kg/Adt
Bleached and
unbleached kraft pulp
0.2-0.5 0.2-0.4 1.0-1.5 0.1-0.2
The values refer to the contribution of the pulp production only. That means that in integrated
mills the figures for the process emissions are related to the kraft pulp production only and do
not include air emissions from steam boilers or power plants that might be operated to provide
the energy needed for paper production.
Best available techniques for reducing waste is to minimise the generation of solid waste and
recover, recycle and re-use these materials, wherever practicable. Separate collection and
intermediate storage of waste fractions at source can be beneficial to meet this aim. When the
collected waste is not re-usable in the process external utilisation of residuals/waste as
substitutes or incineration of organic materials in suitably designed boilers with energy recovery
is considered as BAT.
Executive Summary
Pulp and Paper Industry v
In order to reduce the consumption of fresh steam and electric power, and to increase the
generation of steam and power internally, a number of measures are available. In energy
efficient non-integrated pulp mills the heat generated from black liquor and incineration of bark
exceeds the energy required for the entire production process. However, fuel oil will be needed
at certain occasions like start-up and also at many mills in the lime kiln.
Energy efficient kraft pulp and paper mills consume heat and power as follows:
• Non-integrated bleached kraft pulp mills: 10-14 GJ/Adt process heat and 0.6-0.8 MWh/Adt
of power;
• Integrated bleached kraft pulp and paper mills (e.g. uncoated fine paper): 14-20 GJ/Adt
process heat and 1.2-1.5 MWh/Adt ofpower;
• Integrated unbleached kraft pulp and paper mills (e.g. kraftliner): 14-17.5 GJ/Adt process
heat and 1-1.3 MWh/Adt power.
BAT for Sulphite pulp processing (Chapter 3)
The production of sulphite pulp is much smaller than the production of kraft pulp. The pulping
process can be carried out with different cooking chemicals. The document focuses on
magnesium sulphite pulping because of its importance in terms of capacity and numbers of
mills running in Europe.
In many respects the kraft and sulphite processes have similarities not least regarding the
possibilities of applying different internal and external measures to reduce emissions to
environment. The major differences between the two chemical pulping processes from an
environmental point-of-view are to be found in the chemistry of the cooking process, the
chemical preparation and recovery system and the reduced bleaching required because of better
initial brightness of sulphite pulp.
As in kraft pulping also in sulphite pulping the wastewater effluents and the emissions to air are
the centres of interest. The main raw materials are renewable resources (wood and water) and
chemicals for cooking and bleaching. Emissions to water are dominated by organic substances.
Some compounds discharged from mills show toxic effects on aquatic organisms. Emissions of
coloured substances may effect the living species in the recipient negatively. Emissions of
nutrients (nitrogen and phosphorus) can contribute to eutrophication in the recipient. Metals
extracted from the wood are discharged in low concentrations but due to high flows the load can
be of significance. For bleaching of sulphite pulp the use of chlorine containing bleaching
chemicals is normally avoided, i.e. TCF-bleaching is applied. Therefore, the effluents from the
bleach plant do not contain relevant amounts of organically bound chlorine compounds.
Information on techniques to consider in the determination of BAT is generally much weaker
for sulphite mills than for kraft pulp mills. Therefore, from the limited information supplied by
the members of the TWG in the course of the information exchange on BAT only a few
techniques could be described to the same extent as for kraft pulping. The available data set is
relatively small. This could be partly compensated because of the inherent similarities between
sulphite and kraft pulping. A number of techniques for pollution prevention and control for kraft
pulping are also valid in most respects for sulphite pulping. Where there are particular
differences between kraft and sulphite technologies attempts have been made to collect the
necessary information. However, only information from Austria, Germany and Sweden could
be used for the description of the techniques and the conclusion on BAT. A significant
reduction of emissions to water has been achieved by in-process measures.
Executive Summary
vi Pulp and Paper Industry
Best available techniques for sulphite pulp mills are considered to be:
• Dry debarking of wood;
• Increased delignification before the bleach plant by extended or modified cooking;
• Highly efficient brown stock washing and closed cycle brown stock screening;
• Effective spill monitoring containment and recovery system;
• Closure of the bleach plant when sodium based cooking processes is being used;
• TCF bleaching;
• Neutralising of weak liquor before evaporation followed by re-use of most condensate in the
process or anaerobic treatment;
• For prevention of unnecessary loading and occasionally upsets in the external effluent
treatment due to process cooking and recovery liquors and dirty condensates sufficiently
large buffer tanks for storage are considered as necessary;
• In addition to process-integrated measures, primary and biological treatment is considered
BAT for sulphite pulp mills.
For bleached sulphite pulp mills the BAT emission levels to water that are associated with the
use of a suitable combination of these techniques are the following:
Flow
m
3
/Adt
COD
kg/Adt
BOD
kg/Adt
TSS
kg/Adt
AOX
kg/Adt
Total N
kg/Adt
Total P
kg/Adt
Bleached
pulp
40 - 55 20-30 1-2 1.0-2.0 - 0.15-0.5 0.02-0.05
These emission levels refer to yearly averages. The waste water flow is based on the assumption
that cooling water and other clean water are discharged separately. The values refer to the
contribution of pulping only. In integrated mills emissions from papermaking (see Chapter 6)
have to be added according to product mix manufactured.
Off-gas emissions from different sources are considered as the other relevant environmental
issue. Emissions to the atmosphere originate from different sources the most relevant being the
recovery boiler and the bark furnace. Less concentrated SO
2
containing releases originate from
washing and screening operations and from vents of the evaporators and from various tanks. A
part of these emissions escapes diffuse from various points of the process. Emissions consist
mainly of sulphur dioxide, nitrogen oxides and dust.
Best available techniques for reducing emissions to air are:
• Collection of concentrated SO
2
releases and recovery in tanks with different pressure levels;
• Collection of diffuse SO
2
releases from various sources and introducing them in the
recovery boiler as combustion air;
• Control of SO
2
emissions from the recovery boiler(s) by use of electrostatic precipitators
and multi-stage flue gas scrubbers and collection and scrubbing of various vents;
• Reduction of SO
2
emissions from auxiliary boilers by using bark, gas, low sulphur oil and
coal or controlling S emissions;
• Reduction of odorous gases by efficient collection systems;
• Reduction of NO
x
emissions from the recovery boiler and from auxiliary boilers by
controlling the firing conditions;
• Cleaning of the auxiliary boilers flue gases with efficient electrostatic precipitators to
mitigate dust emissions;
• Emission optimised incineration of residues with energy recovery.
The BAT emission levels from the process associated with a combination of these techniques
are depicted in the following table. Emissions from auxiliary boilers e.g. due to production of
Executive Summary
Pulp and Paper Industry vii
steam used for drying of pulp and/or paper are not included. For these installations emission
levels that are associated with BAT are presented in the section BAT for auxiliary boilers
further below.
Dust
kg/Adt
SO
2
(as S)
kg/Adt
NOx (as NO
2
)
kg/Adt
Bleached pulp 0.02 - 0.15 0.5 - 1.0 1.0 – 2.0
These emission levels refer to yearly averages and standard conditions. The values refer to the
contribution of the pulp production only. That means that in integrated mills the figures for the
process emissions are related to the pulp production only and do not include air emissions from
auxiliary boilers or power plants that might be operated to provide the energy needed for paper
production.
Best available techniques for reducing waste is to minimise the generation of solid waste and
recover, recycle and re-use these materials, wherever practicable. Separate collection and
intermediate storage of waste fractions at source can be beneficial to meet this aim. When the
collected waste is not re-usable in the process, external utilisation of residuals/waste as
substitutes or incineration of organic materials in suitably designed boilers with energy recovery
is considered as BAT.
In order to reduce the consumption of fresh steam and electric power, and to increase the
generation of steam and power internally, a number of measures are available. Sulphite pulp
mills are heat and power self-sufficient by using the heat value of the thick liquor, bark and
wood waste. In integrated mills there is a need for additional steam and electricity that is
generated in on- or off-site power plants. Integrated sulphite pulp and paper mills consume 18 -
24 GJ/Adt process heat and 1.2 - 1.5 MWh/Adt electricity.
BAT for Mechanical pulping and chemi-mechanical pulping (Chapter 4)
In mechanical pulping the wood fibres are separated from each other by mechanical energy
applied to the wood matrix. The objective is to maintain the main part of the lignin in order to
achieve high yield with acceptable strength properties and brightness. There are two main
processes to be distinguished:
• The groundwood process where logs are pressed against a rotating grinder stone with
simultaneous action of water and:
• refiner mechanical pulp that is produced by defiberizing wood chips between disc refiners.
The characteristics of the pulp can be affected by increasing the process temperature and, in the
case of refining, by the chemical pre-treatment of the wood chips. The pulping process in which
the wood is pre-softened with chemicals and refined under pressure is called chemo-thermo-
mechanical pulping and is also covered by this document.
Most mechanical pulping is integrated with paper manufacture. Therefore, the emission levels
associated with the use of BAT are given for integrated pulp and paper mills (except for
CTMP).
In mechanical pulping and chemi-mechanical pulping the wastewater effluents and consumption
of electricity for the drives of grinders or refiners are the centres of interest. The main raw
materials are renewable resources (wood and water) and some chemicals for bleaching (for
CTMP also for chemical pre-treatment of the chips). As processing aids and to improve the
product properties (paper auxiliaries) various additives are applied during paper manufacturing.
Emissions to water are dominated organic substances that are lost in the water phase in the form
of dissolved or dispersed substances. If mechanical pulp is bleached in one or two alkaline
Executive Summary
viii Pulp and Paper Industry
peroxide steps the releases of organic pollutants increase significantly. Peroxide bleaching result
in additional COD-loads before treatment of about 30 kg O
2
/Adt. Some compounds discharged
from mills show toxic effects on aquatic organisms. Emissions of nutrients (nitrogen and
phosphorus) can contribute to eutrophication in the recipient. Metals extracted from the wood
are discharged in low concentrations but due to high flows the load can be of significance.
A big part of techniques to consider in the determination of BAT refer to the reduction of
emissions to water. In mechanical pulping processes the water systems are usually quite close.
Surplus clarified waters from the paper machine are usually used to compensate for the water
leaving the circuit with the pulp and the rejects.
Best available techniques for mechanical pulp mills are considered to be:
• Dry debarking of wood
• Minimisation of reject losses by using efficient reject handling stages
• Water recirculation in the mechanical pulping department
• Effective separation of the water systems of the pulp and paper miill by use of thickeners
• Counter-current white water system from paper mill to pulp mill depending on the degree of
integration
• Use of sufficiently large buffer tanks for storage of concentrated wastewater streams from
the process (mainly for CTMP)
• Primary and biological treatment of the effluents, and in some cases also flocculation or
chemical precipitation.
For CTMP mills a combination of an anaerobic and aerobic treatment of the wastewater is also
regarded as an efficient treatment system. Finally, evaporation of the most contaminated
wastewater and burning of the concentrate plus activated sludge treatment of the rest might be
especially an interesting solution for upgrading mills.
The emission levels that are associated with a suitable combination of these techniques are
presented separately for non-integrated CTMP mills and integrated mechanical pulp and paper
mills. These emission levels refer to yearly average values.
Flow m
3
/t COD
kg/t
BOD
kg/t
TSS
kg/t
AOX
kg/t
Total N
kg/t
Total P
kg/t
Non-integrated
CTMP mills
(contribution of
pulping only)
15-20 10-20 0.5-1.0 0.5-1.0 - 0.1-0.2 0.005-0.01
Integrated
mechanical pulp &
paper mills (such as
newsprint, LWC and
SC paper mills)
12-20 2.0-5.0 0.2-0.5 0.2-0.5 < 0.01 0.04-0.1 0.004-0.01
In case of integrated CTMP mills, emissions from papermaking (see Chapter 6) have to be
added according to product mix manufactured.
For integrated mechanical pulp and paper mills the emission levels refer to both pulping and
papermaking and are related to kg pollutant per tonne of paper produced.
In mechanical pulping, the ranges for COD depend especially on the share of the fibre furnish
that is bleached with peroxide because peroxide bleaching results in higher initial loads of
organic substances before treatment. Therefore, the upper end of the emission range associated
with BAT is valid for paper mills with a high proportion of peroxide bleached TMP.
[...]... combination on the same site Both pulp mills and paper mills are operated in non -integrated and integrated ways Mechanical pulping and recycled fibre processing is usually an integrated part of papermaking but has now also become a stand-alone activity This BREF covers the processes involved in the production of pulp and paper in integrated pulp and paper mills as well as for non -integrated pulp mills... describes the type of information that is provided in each section of the document Chapters 1 provide general information on the industrial sector concerned and the first sections of Chapter 2 to 6 give information on the industrial processes used within the sector Data and information concerning current emission and consumption levels are then presented in the second sections of Chapter 2 to 6 reflecting the. .. (market pulp) and non -integrated papermills using purchased pulp for paper production The main operations covered in this BREF are illustrated in the figure below INPUTS Imported pulp Logs CHEMICAL PULPING (KRAFT AND SULPHITE) REPULPING OF IMPORTED PULP STOCK PREPARATION MECHANICAL AND CHEMI-MECHANICAL PULPING BLEACHING (OPTIONAL) PAPER MACHINE FINISHING OPERATIONS Paper product COATING (ON OR OFF MACHINE)... Standard methods for the analysis of particles/dust within the European Union 467 xxx Pulp and Paper Industry SCOPE A paper mill may simply reconstitute pulp made elsewhere or may be integrated with the pulping operations on the same site That is to say, the activities involved in pulping and recovered paper processing and those involved in papermaking may be undertaken separately or in combination... the situation in existing installations at the time of writing The third sections of Chapter 2 to 6 describe in more detail the emission reduction and other techniques that are considered to be most relevant for determining BAT and BAT-based permit conditions This information includes the consumption and emission levels considered achievable by using the technique, some idea of the costs and the cross-media... standards, be based on the best available techniques, without prescribing the use of any technique or specific technology, but taking into account the technical characteristics of the installation concerned, its geographical location and the local environmental conditions In all circumstances, the conditions of the permit must include provisions on the minimisation of long-distance or transboundary pollution. .. strongly related to living standards and over long-term periods there is a strong correlation between the increase in the consumption of these products and the growth in the GNP (Gross National Product) As is shown in Table 1.2 there is a considerable variation in the world-wide consumption of paper per capita Even within Europe there are big differences The European countries with the highest paper. .. role in pulp production is significant – the annual production of woodpulp is about 35 million t/a the amount produced representing about 1/5 of the world’s total supply The pulp supply consists of market pulp producers and of companies using the bulk of their pulp output in their own integrated paper production and selling only the remaining part to the open market In Western Europe, market pulp is... has been chosen because the same unit processes around the paper and board machine are required in every paper mill whether it is integrated with pulp production or not The description of papermaking as part of integrated pulp mills would increase the complexity of the technical description Finally, in numbers, most paper mills in Europe are non -integrated mills For integrated paper mills this chapter... * There was only a common figure for Belgium and Luxembourg available Table 1.2: Consumption of paper per capita 1995 [Pulp and Paper International (PPI), 1996], [Verband Deutscher Papierfabriken, Papier ‘ 97] 1.2 The European Pulp Industry Europe plays an important role in the global pulp and paper industry; it is the second largest producer and consumer of paper and board, North America being the . COMMISSION Integrated Pollution Prevention and Control (IPPC) Reference Document on Best Available Techniques in the Pulp and Paper Industry December 2001 Executive Summary Pulp and Paper Industry. their paper production. In integrated pulp and paper mills the activities of pulp and papermaking are undertaken on the same site. Kraft pulp mills are operating in both non -integrated and integrated. integrated with the pulping operations on the same site. This document covers the relevant environmental aspects of pulp and papermaking from various fibrous materials in integrated and non-integrated
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